Strut bearing

ABSTRACT

A strut bearing includes two bearing races, a space formed between these two races, roll bodies arranged in the space between the two races, and a seal for sealing the space formed between the two races. At least a part of the seal is made of an elastic material, and the seal is molded to the bearing races or to parts of a casing accommodating the bearing races.

BACKGROUND OF THE INVENTION

[0001] The invention relates to a strut bearing comprising two bearingraces, roll bodies arranged between these races, and a seal which sealsthe space between said two races.

[0002] Strut bearings of this type serve for supporting strut-type wheelsuspensions for the steerable wheels of automotive vehicles on thevehicle body. The strut-type suspension is essentially formed by a shockabsorber and a helical spring surrounding the same. The head of theshock absorber is connected to the vehicle body and is surrounded by thestrut bearing. The casing of the strut bearing must, accordingly, have arelatively large internal diameter. A member rigidly connected to thevehicle body is supported on the upper race of the bearing, whereas thelower race is supported on a spring collar which forms an engagementsurface for the upper end of the helical spring. Thus, the bearing mustbe capable of absorbing a high axial load which corresponds to theportion of the weight of the vehicle acting upon the associated wheel.In addition, the bearing is subject to relatively high radial forces,because the strut is normally inclined relative to the vertical.

[0003] Known strut bearings of this type comprise a casing formed by twoannular casing halves made of synthetic resin and snap-fastened to oneanother, which accommodate the races of the bearing and on which theseal is formed. In view of the relatively high load, a comparativelyhard synthetic resin material must be used for the casing. The seal isformed by sealing lips formed integrally with the casing halves or bylabyrinth profiles and has the purpose to protect the races and rollbodies accommodated in the casing against mud and water.

[0004] When the vehicle wheel is steered, the bearing is expected toallow for a smooth rotation of the strut about its longitudinal axis.

[0005] In conventional strut bearings, it may however happen during asteering operation that the bearing becomes locked, so that the rotationof the spring collar is stopped and the helical disk is subject to atorsional force. When the torsional force exceeds the locking force ofthe spring collar, the spring collar makes an abrupt rotation, and thetorsional bias of the helical spring is released, until the bearinglocks again. This effect which is also termed “spring jumping” isperceptible to the driver as a slight vibration and a disturbing noiseduring the steering operation.

[0006] It is an object of the invention to provide a strut bearing whichcan avoid the phenomenon of spring jumping.

SUMMARY OF THE INVENTION

[0007] According to the invention, this object is achieved by providinga strut bearing comprising two bearing races, a space formed between thetwo races, roll bodies arranged in the space between the two races, anda seal which seals the space between the two races, wherein said sealcomprises an elastic, soft material molded to the races or to parts of acasing accommodating the races.

[0008] This solution is based on an analysis which has shown that, inconventional strut bearings, the phenomenon of spring jumping is mainlydue to the fact that the sealing lips or labyrinth profiles of the sealare made of the same hard synthetic resin material as the rest of thecasing halves. Due to the above-mentioned radial forces and the lackingresiliency of the seal, the frictional forces occurring on the sealingsurfaces which come into engagement with each other may become so largethat they resist a rotation of the casing halves relative to one anotherand lead to a stick-slip effect which, as the case may be, is stillenhanced by resonances of the helical spring and causes theabove-mentioned vibration and noise. According to the invention, the useof a softer material for the seal or at least for parts of the sealleads to a higher resiliency, so that this effect is largely suppressed.On the other hand, since the seal is still directly molded to the mainpart of the casing half, it is still possible to manufacture the casinghalves as one-piece bodies, and it is still possible to employ compactsealing structures in view of the restrained mounting space.

[0009] In the manufacturing process, the casing half of the bearing canbe molded from synthetic resin in two steps. In this case, the main bodyof the casing half is molded in a first step from a hard resin material,and subsequently the seal is molded in a second step from a softermaterial. Alternatively, a two-component molding process can be employedin which the harder main body of the casing half and the softer seal aremolded in one operation.

[0010] In a modified embodiment of the invention it is also possible todispense with one or both of the casing halves and to mold the sealstructures directly to the bearing races.

[0011] In general, it is sufficient when the sealing lip whicheffectively closes the sealing gap is connected to the main body of thecasing half or to the bearing race by a bridge portion made of saidsofter material, so that the required resiliency of the seal isachieved. The sealing lip itself could be made of a harder material. Ina preferred embodiment, however, the seal or, more precisely, thesealing lip is in its entirety made of a soft material, e.g. softsynthetic resin or rubber having a friction coefficient as small aspossible.

[0012] If the seal is structured as a labyrinth, then there is normallyno frictional engagement between surfaces of the sealing structures. Thefeature according to the invention becomes effective when the radialforces lead to a deformation of at least one of the two casing halvesand/or to a shift of the casing halves or the bearing races relative toone another, with the result that surfaces of the sealing structurescome into frictional engagement with one another. In a preferredembodiment, however, the seal is formed by a sealing lip, and thissealing lip is constantly engaged with an associated counter surface ofthe other casing half or the other race of the bearing.

[0013] As in conventional strut bearings, the seal in the strut bearingaccording to the invention may also be configured such that it can beused for snap-fastening the two casing halves together, so that thebearing can conveniently be handled as a single unit until it is builtinto the vehicle.

BRIEF DESCRIPTION OF THE DRAWINGS

[0014] Preferred embodiments of the invention will now be explained inconjunction with the accompanying drawings, in which:

[0015]FIG. 1 is a sectional view of the top end of a strut-type vehiclewheel suspension comprising a strut bearing according to the invention;

[0016]FIG. 2 is an enlarged cross section of the strut bearing;

[0017]FIG. 3 is a cross section of a strut bearing according to a secondembodiment of the invention;

[0018]FIG. 4 is a view similar to FIG. 2, depicting a third embodimentof the invention; and

[0019]FIG. 5 is a view similar to FIG. 3 depicting a fourth embodimentof the invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENT OF THE INVENTION

[0020]FIG. 1 shows parts of a top end of a strut-type wheel suspension10 which is mounted to a damper 12 which itself is fixed at the vehiclebody. The wheel suspension is mounted in a slightly inclined positionand rotatable about its longitudinal axis. The damper 12 has an outerring 14 and an inner ring 16 made of metal, and an annular rubberbushing 18 interposed therebetween. Of the strut-type wheel suspension10, FIG. 1 shows only an upper spring collar 20 and a head member 22which forms a guide sleeve 24 for a piston rod of a shock absorber (notshown). A fastening profile 26 for a rubber sleeve is provided at theouter circumferential surface of the head member 22. The spring collar20 serves to support the top end of a helical spring (not shown) whichsurrounds the shock absorber and elastically bears the weight of thevehicle body.

[0021] The top end of the piston rod of the above-mentioned shockabsorber is adapted to be secured to the inner ring 16 of the damper 12in a fixed axial position. The outer ring 14 of the damper forms adish-shaped seat 28 for a strut bearing 30. The seat 28 is lined withparts of the rubber bushing 18.

[0022] The strut bearing 30, a cross section of which is shown in anenlarged scale in FIG. 2 as the form of a ring with a comparativelylarge internal diameter surrounding parts of the spring collar 20 andthe head member 22. In the shown embodiment the strut bearing 30 is anaxial roll bearing having upper and lower races 32 made of steel and acage 36 accommodating bearing rolls 34. The races 32 and the cage 36 aremounted in an annular casing 38 which is composed of two annular casinghalves 40, 42. The casing halves 40, 42 each have an essentiallyL-shaped profile and are made by injection molding from a comparativelyhard synthetic resin which is capable of bearing a high weight load. Theweight of the vehicle is supported by the upper race 32 via the seat 28and the upper casing half 40, whereas the lower race 32 is supported onthe helical spring (not shown) via the lower casing half 42 and thespring collar 20.

[0023] The two halves 40, 42 of the casing 38 are provided with seals44, 46 at both their external and internal circumferential edges. Beforethe strut bearing is mounted, these seals serve for mechanically holdingthe two halves of the casing together. After the casing has beenmounted, they have the main function to protect the internal space ofthe casing, in which the races 32 and the roll cage 36 are accommodated,against mud and water and to prevent lubricant from leaking out of thebearing.

[0024] An outer circumferential edge of the seal 44 is formed by asealing lip 48 molded to the casing half 42 and made of rubber, or asuitable synthetic elastic resin material, which is significantly softerthan the material of the races of the casing half 42 and which has a lowcoefficient of friction against the material of the upper casing half40. This sealing lip 48 projects into an annular recess 50 formed in theouter wall of the casing half 40 and snaps-in behind a locking profile52 formed at the lower end of the recess 50.

[0025] The seal 46 at the internal circumferential edge of the casing 38is formed by a labyrinth profile 54 and a sealing lip 56 which are bothmade of the above-mentioned soft synthetic resin material and are moldedto the casing half 42. The labyrinth profile 54 and the sealing lip 56project into an annular recess formed in the upper casing half 40. Thesealing lip 56 is in this case not in engagement with the upper casinghalf 40 but hooks around the internal edge of the upper bearing race 32and is in sliding engagement with the top surface of this race.

[0026] An elastic bias of the sealing lips 48 and 56 enables a goodsealing effect is achieved, without the friction forces occurring on thesealing surfaces being strong enough to prevent a smooth rotation of thecasing halves 40, 42 relative to one another. When, due to radial forcesand deformations of the material, the casing halves 40, 42 becomeradially offset relative to one another, the resiliency of the sealinglips 48, 56 and, if necessary, also of the labyrinth profile 52, assuresthat the frictional forces will not increase significantly, so that asmooth rotation of the bearing is still possible.

[0027]FIG. 3 shows a modified embodiment in which the sealing lips 48and 56 are each directly molded to an associated one of the bearingraces 32 by insert molding, and hook around the respective other bearingrace. Alternatively, both sealing lips could also be insert-molded toone and the same bearing race and be in sliding engagement with theother bearing race.

[0028] Also alternatively, and as explained earlier, only a portion ofthe seal which connects to the casing (or to the race) would be formedof the soft material, in order to provide the seal with sufficientelasticity. An example of such a bearing 30A is shown in FIG. 4 whereinone end 60 (or 70) of the seal 44A (or 46A) is formed of the softmaterial and is molded to one casing section, and the other (free) end62 (or 72) of the seal is formed of a harder material.

[0029] The same concept can be employed to modify the FIG. 3 bearing, asshown in FIG. 5 wherein a bearing 30B has seals 44B, each of which hasone end 74 molded to one race and formed of the soft material, andanother end 76 hooked around the other race. The material of the end 76would be harder than that of the end 74 but not as hard as the racematerial. Of course, if desired, both seals could be molded to the samerace instead of different races.

[0030] Although the present invention has been described in connectionwith preferred embodiments thereof, it will be appreciated by thoseskilled in the art that additions, deletions, modifications, andsubstitutions not specifically described may be made without departingfrom the spirit and scope of the invention as defined in the appendedclaims.

What is claimed is:
 1. A strut bearing comprising: a casing; a racearrangement disposed in said casing and including two bearing racesforming a space between one another; roll bodies disposed in said space;and a seal for sealing said space, at least a portion of said sealcomprising an elastic material softer than the material from which saidcasing is formed, and being molded to said casing.
 2. Strut bearing asclaimed in claim 1, wherein said seal is, in its entirety, made of saidelastic material.
 3. Strut bearing as claimed in claim 1, wherein aportion of said seal is molded to said casing is formed of said elasticmaterial, and a remainder of said seal being formed of a material harderthan said elastic material.
 4. Strut bearing as claimed in claim 1,wherein said casing comprises a pair of casing sections, said seal beingmolded to one of said casing sections and slidably engaging the othercasing section.
 5. Strut bearing as claimed in claim 1, wherein saidcasing comprises a pair of casing sections, said seal being molded toone of said casing sections and slidably engaging one of said bearingraces.
 6. Strut bearing as claimed in claim 1, wherein said sealcomprises a labyrinth profile.
 7. Strut bearing as claimed in claim 2,wherein said seal comprises a labyrinth profile.
 8. Strut bearing asclaimed in claim 1 wherein said casing comprises two sections, said sealforming a snap mechanism for holding said casing sections together. 9.Strut bearing as claimed in claim 1, wherein said casing is composed oftwo casing halves rotatable relative to one another and forming a firstgap at their inner peripheral edge and a second gap and their outerperipheral edge, wherein one of said gaps is closed by said seal, whichconstitutes a first seal, and the other gap is closed by an additionalseal comprising said elastic material.
 10. Strut bearing according toclaim 1 wherein said first seal is molded to one of the casing halvesand slidably contacts the other casing half, and the additional seal ismolded to one of said casing halves and slidably contacts one of theraces.
 11. A strut bearing comprising: a race arrangement including twobearing races forming a space between one another; roll bodies disposedin said space, and a seal for sealing said space, said seal comprisingan elastic material softer than the material from which said races areformed, and being molded to one of said races and slidably engaging theother of said races.
 12. Strut bearing as claimed in claim 11, whereinsaid seal is, in its entirety, made of said soft material.
 13. Strutbearing as claimed in claim 11, wherein a portion of said seal is moldedto said one race, and a remainder of said seal formed of a materialharder than said soft material.
 14. Strut bearing as claimed in claim11, wherein one end of said seal is molded to said one race, and anopposite end of said seal hooks around said other race.
 15. Strutbearing as claimed in claim 12, wherein one end of said seal is moldedto said one race, and an opposite end of said seal hooks around saidother race.
 16. Strut bearing as claimed in claim 11, wherein said twobearing races form a first gap at their inner circumferential edges anda second gap at their outer circumferential edges, one of said gapsclosed by said seal, and the other gap closed by an additional sealcomprising said soft material.
 17. Strut bearing as claimed in claim 16wherein said seals are arranged to hold said bearing races together. 18.Strut bearing as claimed in claimed 16 wherein said seals are molded todifferent ones of said races.